By Mubasher Ahmed, Genetics ‘15 Viral evolution is an emerging field in biology that has great implications for human health. T7 is a phage virus, meaning it infects bacteria, and is a powerful model system in evolutionary virology. In a recent experiment, a team of biologists sought to understand the degree to which genetic elements engineered into the T7 phage genome affected the phage’s rate of propagation. In this context, the genetic elements are sequences of DNA that are inserted between genes that allow for researchers to manipulate gene regulatory networks. This allows biologists to probe how phenotypes change when gene-gene interactions are perturbed. Previous studies had shown that such genomic elements led to decreased fitness for the virus, but […]
By Marisa Sanchez, Molecular and Cellular Biology ‘15 The genomes of male and female mammals differ by one chromosome. The Y chromosome is only present in males, and is responsible for initiating the physiological and morphological differences between the sexes. This has not always been the case though; at one point, the X and Y were identical, and over time the Y chromosome began to differentiate from the X chromosome and shrink in size. The Y chromosome today only has 20 genes, whereas the X chromosome has over 1,000 genes.
By Isra Uz-Zaman, Genetics ’14 Cheating in sports in not a new phenomenon. In the modern era, numerous athletes participate in blood doping by injecting erythropoietin (EPO) into their blood to increase the amount of red blood cells and thus improve their athletic performance. EPO is a protein hormone produced by the kidney which stimulates the production of red blood cells when released into the bloodstream. Increased red blood production increases the amount of oxygen available in the body and boosts an athlete’s performance. Yannis Pitsiladis, a psychologist in Scotland, is at the forefront of developing anti-doping testing based on the genetic fingerprint left by drugs. Conventionally researches developed tests to find the drug, but Pitsiladis has taken another approach. […]
By Marisa Sanchez, Genetics ’15 Most people know that poor diet, lack of exercise, and smoking as an adult can increase the risk of developing cardiovascular disease (CVD) and Type II diabetes. However, research over the past couple of decades has shown that risk for CVD and type II diabetes could begin as early as prenatally through adverse exposures, such as overnutrition and placental insufficiency. Some mechanisms involved in determining risk for CVD and Type II diabetes are oxidative stress, inflammation, lipotoxicity, and epigenetics.
By Ashley Chang, Genetics ’15 Biostatisticians led by Knut Wittkowski at Rockefeller University Hospital have employed new methods of genome-wide association studies to identify genes that they believe to be associated with autism. The researchers compared genomes of patients with varying degrees of autism to healthy patients and were able to identify genetic variations that seem to be linked to the pathology of neural development in young children. The technique used to identify these genes is unique. Rather than traditional genome association, which searches for single nucleotide polymorphisms (SNPs), this new method looks for combinations of several SNPs that are common in patients with a disease. Wittkowski also compared this new autism profile to patients with childhood epilepsy and found […]